![]() Then, a low-latency handover scheme is proposed to enable mobility in a VLC network. We first modify the traditional VLC network topology to increase uplink reliability. Therefore, this paper addresses the problem of designing a vehicular VLC network that supports high mobility users. In particular, the limited coverage range of the VLC access points and the high speed of vehicles create time-limited links that the existing handover procedures of VLC networks can not be accomplished timely. However, integrating VLC in vehicular networks poses some fundamental challenges. ![]() In addition to the radio frequency (RF) based communication technologies, Visible Light Communication (VLC) has emerged as a complementary way to enable wireless access in intelligent transportation systems (ITS) with a simple design and low-cost deployment. Current vehicular systems require real-time information to keep drivers safer and more secure on the road. ![]()
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